CN103123061A - Light emitting diode (LED) lamp - Google Patents

Abstract

A light emitting diode (LED) lamp comprises a radiator, a lamp holder connecting base, a lamp holder, an upper base seat and a lower base seat, wherein the lamp holder is fixed at one end of the lamp holder connecting base, the upper base seat and the lower base seat are respectively in detachable connection with two ends of the radiator, and the upper base seat is connected between the lamp holder connecting base and the radiator. The radiator is made of heat conduction material and comprises a barrel body, a plurality of support components, a plurality of first heat dissipation fins and a plurality of heat dissipation teeth, wherein two ends of the barrel body are open, a plurality of fixing holes are formed in two end faces of the barrel body and are used for being fixedly connected with the upper base seat and the lower base seat, the plurality of support components are evenly distributed on the outer wall of the barrel body, each support component comprises a support plate and a heat dissipation piece, the middle of each heat dissipation piece is in vertical connection with a side edge, opposite to the barrel body, of a corresponding support plate, a clamping groove used for installation of an LED lamp bar and a lamp cover is formed in the outer surface of each heat dissipation piece, the plurality of first heat dissipation fins are fixed on the outer wall of the barrel body, and the plurality of heat dissipation teeth are evenly distributed on two opposite surfaces of the first heat dissipation fins and the support plates. The LED lamp is good in heat dissipation performance.

Description

The LED light fixture

[technical field]

The present invention relates to a kind of light fixture, particularly relate to a kind of LED light fixture.

[background technology]

LED is a kind of new type light source of tool development prospect of 21 century, the LED industry is considered to have most in recent years one of industry of development potentiality, everybody expects that LED enters general lighting market, become new lighting source, initiation along with Copenhagen meeting and low-carbon economy subject under discussion, LED will generally enter illumination market, and its economic output value is considerable.

The bottleneck Main Bottleneck of at present restriction LED light fixture development is heat radiation, and LED belongs to light emitting semiconductor device, and light emitting semiconductor device is along with the variation of self temperature, and its characteristic can significant change, and the rising of LED junction temperature can cause variation and the decay of each device performance.The theoretical life-span of LED can reach 100,000 hours, in actual the use, the junction temperature of LED is generally all higher, statistics shows that 70% components and parts inefficacy is because excess Temperature causes, 10 degrees centigrade of the every risings of temperature, its life-span will reduce half, and the rising of LED temperature also can affect to luminous efficiency and glow color, such as dominant wavelength red shift, fluorescent material Efficiency Decreasing etc.

[summary of the invention]

In view of above-mentioned condition, be necessary to provide that a kind of radiating efficiency is high, lower-cost LED light fixture.

A kind of LED light fixture, it comprises: radiator, lamp holder connection base, lamp holder, top base and bottom base, described lamp holder is fixed in an end of described lamp holder connection base, described top base and bottom base removably connect with the two ends of described radiator respectively, and described top base is connected between described lamp holder connection base and described radiator;

Described radiator is made by Heat Conduction Material, and described radiator comprises:

Cylindrical shell, its both ends open is equipped with a plurality of fixing holes on two end faces of described cylindrical shell, and described a plurality of fixing holes are used for being fixedly connected with top base and bottom base;

A plurality of support components are evenly distributed on the outer wall of described cylindrical shell, and each support component comprises:

Gripper shoe, the one side is fixedly connected with the outer wall of described cylindrical shell, and along the radially setting of described cylindrical shell;

Fin, the vertical connection of side that its middle part is relative with described cylindrical shell with described gripper shoe, make described gripper shoe and described fin jointly form T shape structure, the outer surface of described fin is provided with draw-in groove, and described draw-in groove is used for installing described LED lamp bar and lampshade;

A plurality of the first radiating fins are fixed on the outer wall of described cylindrical shell, and along the radially setting of described cylindrical shell, described a plurality of the first radiating fins are evenly distributed between described a plurality of support component;

A plurality of radiation tooths are evenly distributed on relative two surfaces of described the first radiating fin and described gripper shoe;

Wherein, the height of the outer wall of the described cylindrical shell of described gripper shoe distance protrudes from outside described radiating fin described fin greater than the height of the outer wall of the described cylindrical shell of described radiating fin distance.

Compared to traditional LED light fixture, above-mentioned LED light fixture has the following advantages at least:

(1) the cylindrical shell inside and outside wall of above-mentioned radiator is provided with radiating fin, to increase the surface area of radiator, improves the radiating efficiency of radiator.In addition, outer wall is provided with a plurality of support components for fixed L ED light source, a plurality of support components form the convection channel of nature, and the distribution of the fin of support component arranges and meets aerodynamic principle fully, and conduction, convection current, three kinds of thermaltransmission modes of radiation are well used.Therefore, the radiating efficiency of above-mentioned radiator is higher.

(2) be equipped with radiation tooth on relative two surfaces of the gripper shoe of the radiating fin of above-mentioned radiator and support component, to improve the radiating efficiency of radiator, can play the effect of reinforcement simultaneously, improve the structural strength of radiator.

Therein in embodiment, described radiator also comprises a plurality of the second radiating fins, described a plurality of the second radiating fin is located on the madial wall of described cylindrical shell equably, and along the radially setting of described cylindrical shell, and the height of the madial wall of described the second described cylindrical shell of radiating fin distance is less than the height of the outer wall of described the first described cylindrical shell of radiating fin distance.

In embodiment, relative two surface uniforms of described the second radiating fin are distributed with a plurality of described radiation tooths therein.

Therein in embodiment, each described support component also comprises a plurality of the 3rd radiating fins, described a plurality of the 3rd radiating fin is located at the inner surface of described fin, and lay respectively at the both sides of described gripper shoe, the height of described a plurality of the 3rd described fin of radiating fin distance is along with the spacing of described the 3rd radiating fin and described gripper shoe increases and reduces.

In embodiment, relative two surface uniforms of described the 3rd radiating fin are provided with a plurality of described radiation tooths therein.

In embodiment, the relative dual-side of the outer surface of described fin is respectively equipped with a T-shaped boss therein, and described T-shaped boss extends axially along described cylindrical shell, and described two T-shaped boss are common forms described draw-in groove.

In embodiment, described radiator adopts aluminium alloy to make therein, and described radiator is formed by a strip structure cutting, and described strip structure employing aluminium extruded technological forming.

In embodiment, the outer surface of described radiator is through forming one deck reflective film after anodized therein.

In embodiment, described gripper shoe, fin, the first radiating fin are the axially extended rectangular structure along described cylindrical shell, and extend to the other end from an end of described cylindrical shell therein.

In embodiment, described support component is eight therein, form three described the first radiating fins between every two described support components, and the spacing of the outer surface of every two relative support components is 80 millimeters.

[description of drawings]

Fig. 1 is the exploded view of the LED light fixture of embodiment of the present invention;

Fig. 2 is the assembly drawing of LED light fixture shown in Figure 1;

Fig. 3 is the stereogram of the radiator of LED light fixture shown in Figure 1;

Fig. 4 is the side view of radiator shown in Figure 3;

Fig. 5 is the front view of radiator shown in Figure 4.

[specific embodiment]

For the ease of understanding the present invention, the below is described more fully the present invention with reference to relevant drawings.Provided preferred embodiment of the present invention in accompanying drawing.But the present invention can realize in many different forms, is not limited to embodiment described herein.On the contrary, provide the purpose of these embodiment be make the understanding of disclosure of the present invention more comprehensively thorough.

Need to prove, when element is called as " being fixed in " another element, can directly can there be element placed in the middle in it on another element or also.When an element is considered to " connection " another element, it can be directly connected to another element or may have simultaneously centering elements.Term as used herein " vertical ", " level ", " left side ", " right side " and similar statement are just for illustrative purposes.

Unless otherwise defined, all technology of using of this paper and scientific terminology are with to belong to the implication that those skilled in the art of the present invention understand usually identical.The term that uses in specification of the present invention herein is not intended to be restriction the present invention just in order to describe the purpose of specific embodiment.Term as used herein " and/or " comprise one or more relevant Listed Items arbitrarily with all combinations.

See also Fig. 1 and Fig. 2, the LED light fixture 10 of embodiment of the present invention comprises radiator 100, lamp holder connection base 210, lamp holder 220, top base 231, bottom base 233, the first Transparent lamp shade 241, LED lamp bar 250, the second Transparent lamp shade 242, PCB control panel 260, installing sleeve 270, plugboard 280 and power supply 290.LED light fixture 10 can be LED wall lamp, LED corn lamp, specifically in the present embodiment, describes as an example of the LED corn lamp example.

See also Fig. 3 to Fig. 5, radiator 100 is made by Heat Conduction Material, is used for the LED light source of carrying LED light fixture 10.Radiator 100 can adopt aluminium alloy or other highly heat-conductive materials to make.For example, radiator 100 is formed by a strip structure cutting, and strip structure adopts the aluminium extruded technological forming.Owing to adopting the one-shot forming of aluminium extruded technique, directly be cut into the radiator 100 of Len req after moulding, enhance productivity, reduce the cost.

Further, the outer surface of radiator 100 is through forming one deck reflective film after anodized.Due to the aluminium alloy good processability, can improve heat emissivity coefficient by anodic oxidation, thereby improve the thermal radiation capability on radiator 100 surfaces.

Radiator 100 comprises cylindrical shell 110, support component (figure is mark not), the first radiating fin 120 and radiation tooth 130.Support component and the first radiating fin 120 are located on described cylindrical shell 110, and support component is used for the carrying LED light source, and the first radiating fin 120 and radiation tooth 130 are used for improving the radiating efficiency of radiator 100.

The both ends open of cylindrical shell 110, and be equipped with a plurality of fixing holes 111 on two end faces of cylindrical shell 110.A plurality of fixing holes 111 are used for being fixedly connected with top base 231 and bottom base 233.For example, fixing hole 111 is screw, and threaded fastener passes top base 231 or bottom base 233 is rear and this fixing hole 111 is spirally connected.

Specifically in the illustrated embodiment, cylindrical shell 110 is cylindrical shell 110, and the upper outside protrusion of its madial wall is many to lug 113, and between every pair of lug 113, the interval arranges, and forms tool fixing hole 111 jaggy.The lug 113 of being located at due to employing on the madial wall of cylindrical shell 110 is spliced into this fixing hole 111, need not in the direct perforate in the end of cylindrical shell 110, thereby when cylindrical shell 110 is comparatively frivolous, guarantees that cylindrical shell 110 has higher structural strength.

Support component is a plurality of, and is evenly distributed on the outer wall of cylindrical shell 110.Each support component comprises gripper shoe 140 and fin 150.

One side of gripper shoe 140 is fixedly connected with the outer wall of cylindrical shell 110, and along the radially setting of cylindrical shell 110.Gripper shoe 140 can be rectangular structure.Specifically in the illustrated embodiment, gripper shoe 140 is long and narrow square plate, and its long limit is fixedly connected with the outer wall of cylindrical shell 110.

The vertical connection of side that the middle part of fin 150 is relative with cylindrical shell 110 with gripper shoe 140, make gripper shoe 140 and the common T of formation shape of fin 150 structure, the outer surface of fin 150 is provided with draw-in groove 151, and draw-in groove 151 is used for LED lamp bar 250 and the lampshade (i.e. the first Transparent lamp shade 241) of mounted LED lamp tool 10.Specifically in the illustrated embodiment, fin 150 is long and narrow square plate, and it is perpendicular to the radially setting of cylindrical shell 110, and aligns with the axial line of symmetry of fin 150 in another long limit of gripper shoe 140.Spacing between a plurality of fin 150 is more than or equal to the width of fin 150, thus the wider convection channel of reservation, the radiating efficiency of raising radiator 100.

Further, the relative dual-side of the outer surface of fin 150 is respectively equipped with a T-shaped boss 153, and T-shaped boss 153 extends axially along cylindrical shell 110, and two common draw-in grooves 151 that form of T-shaped boss 153.

A plurality of the first radiating fins 120 are fixed on the outer wall of cylindrical shell 110, and along the radially setting of cylindrical shell 110.A plurality of the first radiating fins 120 are evenly distributed between a plurality of support components.Specifically in the illustrated embodiment, the first radiating fin 120 also can be long and narrow square plate, and the long limit of the first radiating fin 120 is fixedly connected with the outer wall of cylindrical shell 110.

Wherein, gripper shoe 140 greater than the height of radiating fin apart from the outer wall of cylindrical shell 110, protrudes from outside radiating fin fin 150 apart from the height of the outer wall of cylindrical shell 110.

A plurality of radiation tooths 130 are evenly distributed on relative two surfaces of the first radiating fin 120 and gripper shoe 140.The radiation tooth 130 that is distributed in relative two surfaces can be interspersed, and also can be symmetrical arranged.Specifically in the illustrated embodiment, the radiation tooth 130 that is distributed in relative two surfaces is symmetrical arranged.

Radiator 100 also comprises a plurality of the second radiating fins 160, and a plurality of the second radiating fins 160 are located on the madial wall of cylindrical shell 110 equably, and along the radially setting of cylindrical shell 110.And, the second radiating fin 160 apart from the height of the madial wall of cylindrical shell 110 less than the height of the first radiating fin 120 apart from the outer wall of cylindrical shell 110.Specifically in the illustrated embodiment, the second radiating fin 160 also can be long and narrow square plate, and the long limit of the first radiating fin 120 is fixedly connected with the inwall of cylindrical shell 110.

Further, relative two surface uniforms of the second radiating fin 160 are distributed with a plurality of these radiation tooths 130, thereby further improve the radiating efficiency of radiator 100.

Each support component also comprises a plurality of the 3rd radiating fins 170, a plurality of the 3rd radiating fins 170 are located at the inner surface of fin 150, and lay respectively at the both sides of gripper shoe 140, a plurality of the 3rd radiating fins 170 apart from the height of fin 150 along with the spacing of the 3rd radiating fin 170 with gripper shoe 140 increases and reduce.Change sentence and speak, larger apart from the height of fin 150 near the 3rd radiating fin 170 of gripper shoe 140, less apart from the height of fin 150 away from the 3rd radiating fin 170 of gripper shoe 140.Specifically in the illustrated embodiment, the 3rd radiating fin 170 also can be long and narrow square plate, and wherein a long limit is connected with fin 150 is vertical.Gripper shoe 140 both sides respectively arrange two the 3rd radiating fins 170.

Further, relative two surface uniforms of the 3rd radiating fin 170 are provided with a plurality of these radiation tooths 130, thereby further improve the radiating efficiency of radiator 100.

Need to prove, gripper shoe 140, fin 150, the first radiating fin 120, the second radiating fin 160 and the 3rd radiating fin 170 all can be the axially extended rectangular structure along cylindrical shell 110, and extend to the other end from an end of cylindrical shell 110.In addition, quantity and the size of gripper shoe 140, fin 150, the first radiating fin 120, the second radiating fin 160 and the 3rd radiating fin 170 also can arrange according to the actual requirements, for example, support component is eight, form three the first radiating fins 120 between every two support components, and the spacing of the outer surface of every two relative support components is 80 millimeters.

In the present invention, the shape of lamp holder connection base 210 is unrestricted.Please again consult Fig. 1 and Fig. 2, specifically in illustrated embodiment, lamp holder connection base 210 is truncated cone-shaped.

Lamp holder 220 is fixed in an end of lamp holder connection base 210.Specifically in illustrated embodiment, lamp holder 220 is fixed in the little head end of lamp holder connection base 210.Lamp holder 220 can be the screwed socket of type E40 or E49.

Top base 231 and bottom base 233 removably connect with the two ends of radiator 100 respectively, and top base 231 is connected between lamp holder connection base 210 and radiator 100.Specifically in illustrated embodiment, screw passes top base 231, bottom base 233 and screws togather with the fixing hole at the cylindrical shell two ends of radiator 100 respectively, thereby top base 231 and bottom base 233 are fixedly connected with respectively with the two ends of cylindrical shell.

The first Transparent lamp shade 241 is strip, and its relative dual-side is provided with the buckle 241a in the draw-in groove 151 that is held in radiator 100, thereby the first Transparent lamp shade 241 detachably is fixed on radiator 100.

LED lamp bar 250 is provided with a plurality of LED illuminating module 251, and a plurality of LED illuminating module 251 are spaced along the length direction of LED lamp bar 250.The relative dual-side of LED lamp bar 250 also is held in the draw-in groove 151 of radiator 100, and wherein, LED lamp bar 250 is positioned at the below of the first Transparent lamp shade 241.

The second translucent cover is circular, and it is fixed in bottom base 233 away from an end of radiator 100, and the second Transparent lamp shade 242 forms an electric chamber jointly with bottom base 233.

PCB control panel 260 is electrically connected to the LED illuminating module 251 of a plurality of LED lamp bars 250, and PCB control panel 260 is fixed in the electric chamber of the second Transparent lamp shade 242 and bottom base 233 formation.

Installing sleeve 270 is fixed on the end of top base 231 away from radiator 100, and is contained in lamp holder connection base 210.Specifically in illustrated embodiment, installing sleeve 270 is the cylindrical shell of an end opening, an end sealing, and the openend of installing sleeve 270 tips upside down on top base 231.

Plugboard 280 is fixed on top base 231, and is contained in installing sleeve 270.Power supply 290 is fixed on the outer surface of blind end of installing sleeve 270.

Below with the structure of the radiator 100 of an above-mentioned corn lamp of specific embodiment explanation wherein.

The sectional dimension of the radiator 100 of LED light fixture 10 is 80x80mm.The inner wall position that is positioned at cylindrical shell 110 on the cross section has the fixing hole 111 of 4, facilitates like this fixing of radiator 100 and top base 231 and bottom base 233, just can will both fix by self-tapping screw.The inside and outside wall of cylindrical shell 110 is respectively equipped with the first radiating fin 120 and second radiating fin 160 of array arrangement, the first radiating fin 120 and the second radiating fin 160 are provided with a plurality of radiation tooths 130, increased like this efficiently radiates heat area in attractive in appearance, fin length and thickness are all to analyze through adjusting the optimal value that draws.Peripheral annular array at radiator 100 has 8 groups of support components stretching, has draw-in groove 151 inside and outside on each fin 150, and it is fixing that LED lamp bar 250 and PC lampshade all pass through this draw-in groove 151, has saved the loaded down with trivial details of screw locking.8 groups of support component annulars are uniform, and light so out is also more even; And the distribution of fin 150 arranges and meets aerodynamic principle fully, and conduction, convection current, three kinds of thermaltransmission modes of radiation are well used.

Lamp holder 220 is roughly rectangular screw-type, specifically selects anyly to go to select according to different national standards.The first Transparent lamp shade 241 and LED lamp bar 250 are roughly long strip type, respectively have 8 circular arrays evenly to distribute, and by draw-in groove and buckle 241a, the first Transparent lamp shade 241 and LED lamp bar 250 are fixed on high-power self-cooling LED lamp radiator 100.Top base 231 and high-powerly on the radiator 100 of heat radiation, porose position is set, by self-tapping screw both coupling together.Lamp holder connection base 210 and top base 231 and installing sleeve 270 couple together by screw.Power supply 290 and plugboard 280 are positioned at the receiving space that the three forms.The corresponding bottom base 233 in radiator 100 bottom surfaces, PCB control panel 260 is arranged on bottom base 233, by screw, bottom base 233, PCB control panel 260 and radiator 100 is linked together.LED illuminating module 251 is arranged on LED lamp bar 250, and a plurality of LED illuminating module 251 lamps consist of the LED light emitting array.The second Transparent lamp shade 242 is fixed together by silica gel and bottom base 233.Power supply 290 and plugboard 280 are arranged in cavity between top base 231, installing sleeve 270 and lamp holder connection base 210, plugboard 280 combines the electric leads on LED lamp bar 250 and PCB control panel 260, and the output that the both positive and negative polarity after integration is connected with power supply connects; Simultaneously power supply 290 inputs connect external power source 290 by the E27/E40/E39 lamp holder, and such as civil power, lamp holder 220 is designed to the universal standard, and this structure installs easily, highly versatile, stable performance.

The main Natural Heat Convection by air of above-mentioned radiator 100, and use aluminium alloy 6063 or highly heat-conductive material, its coefficient of heat conduction is higher, good processability, process for treating surface is comparative maturity also, can improve heat emissivity coefficient by anodic oxidation, thereby improve the thermal radiation capability on radiator 100 surfaces.In addition, the shell of above-mentioned LED radiator adopts the radiating fin of integrated ring shaped array, and this radiator structure also is beneficial to air in attractive in appearance free convection has solved heat dissipation problem effectively.

Compared to traditional LED light fixture, above-mentioned LED light fixture 10 has the following advantages at least:

(1) cylindrical shell 110 inside and outside walls of above-mentioned radiator 100 are provided with radiating fin, to increase the surface area of radiator 100, improve the radiating efficiency of radiator 100.In addition, outer wall is provided with a plurality of support components for fixed L ED light source, a plurality of support components form the convection channel of nature, and the distribution of the fin 150 of support component arranges and meets aerodynamic principle fully, and conduction, convection current, three kinds of thermaltransmission modes of radiation are well used.Therefore, the radiating efficiency of above-mentioned radiator 100 is higher.

(2) be equipped with radiation tooth 130 on relative two surfaces of the gripper shoe 140 of the radiating fin of above-mentioned radiator 100 and support component, to improve the radiating efficiency of radiator 100, can play the effect of reinforcement simultaneously, improve the structural strength of radiator 100.

(3) above-mentioned radiator 100 adopts aluminium extruded type technique moulds, but one-shot forming, and the length that directly is cut into needs after shaping gets final product, thereby improves the production efficiency of radiator 100, reduces costs.Simultaneously, due to the radiator 100 length cutting according to actual needs formation of different length, to adapt to dissimilar LED light fixture, avoid die sinking again, increase cost.

(4) LED lamp bar 250 is stripe shape, LED illuminating module 251 is arranged on LED lamp bar 250, draw-in groove by radiator 100 is fixed on LED lamp bar 250 on radiator 100, and LED lamp bar 250 removably is fixed on radiator 100, is convenient to change LED lamp bar 250.And power supply 290 is built-in, is about to power supply 290 and puts in cavity between pedestal 231, installing sleeve 270 and lamp holder 220, avoids power supply 290 to be subject to the heat effects of radiator 100.

(5) by draw-in groove, LED lamp bar 250 is fixed on radiator 100, fill LED lamp bar 250 and lamp radiator 100 space between both with heat-conducting cream simultaneously, guaranteed the good contact of LED lamp bar 250 with radiator 100, the heat that is beneficial to 251 generations of LED illuminating module is transmitted on radiator 100 fast by LED lamp bar 250, and then by Air Flow, heat is taken away, reduce timely and effectively the temperature of LED work, guaranteed the work of LED long-term stability.

The above embodiment has only expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the scope of the claims of the present invention.Should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (10)

1. LED light fixture, it is characterized in that, comprise: radiator, lamp holder connection base, lamp holder, top base and bottom base, described lamp holder is fixed in an end of described lamp holder connection base, described top base and bottom base removably connect with the two ends of described radiator respectively, and described top base is connected between described lamp holder connection base and described radiator;

Described radiator is made by Heat Conduction Material, and described radiator comprises:

Cylindrical shell, its both ends open is equipped with a plurality of fixing holes on two end faces of described cylindrical shell, and described a plurality of fixing holes are used for being fixedly connected with described top base and bottom base;

A plurality of support components are evenly distributed on the outer wall of described cylindrical shell, and each support component comprises gripper shoe and fin; Gripper shoe, the one side is fixedly connected with the outer wall of described cylindrical shell, and along the radially setting of described cylindrical shell; Fin, the vertical connection of side that its middle part is relative with described cylindrical shell with described gripper shoe, make described gripper shoe and described fin jointly form T shape structure, the outer surface of described fin is provided with draw-in groove, and described draw-in groove is used for installing described LED lamp bar and lampshade;

A plurality of the first radiating fins are fixed on the outer wall of described cylindrical shell, and along the radially setting of described cylindrical shell, described a plurality of the first radiating fins are evenly distributed between described a plurality of support component;

A plurality of radiation tooths are evenly distributed on relative two surfaces of described the first radiating fin and described gripper shoe;

Wherein, the height of the outer wall of the described cylindrical shell of described gripper shoe distance protrudes from outside described radiating fin described fin greater than the height of the outer wall of the described cylindrical shell of described radiating fin distance.

2. LED light fixture as claimed in claim 1, it is characterized in that, described radiator also comprises a plurality of the second radiating fins, described a plurality of the second radiating fin is located on the madial wall of described cylindrical shell equably, and along the radially setting of described cylindrical shell, and the height of the madial wall of described the second described cylindrical shell of radiating fin distance is less than the height of the outer wall of described the first described cylindrical shell of radiating fin distance.

3. LED light fixture as claimed in claim 2, is characterized in that, relative two surface uniforms of described the second radiating fin are distributed with a plurality of described radiation tooths.

4. LED light fixture as claimed in claim 2, it is characterized in that, each described support component also comprises a plurality of the 3rd radiating fins, described a plurality of the 3rd radiating fin is located at the inner surface of described fin, and lay respectively at the both sides of described gripper shoe, the height of described a plurality of the 3rd described fin of radiating fin distance is along with the spacing of described the 3rd radiating fin and described gripper shoe increases and reduces.

5. LED light fixture as claimed in claim 4, is characterized in that, relative two surface uniforms of described the 3rd radiating fin are provided with a plurality of described radiation tooths.

6. LED light fixture as claimed in claim 4, is characterized in that, the relative dual-side of the outer surface of described fin is respectively equipped with a T-shaped boss, and described T-shaped boss extends axially along described cylindrical shell, and the described draw-in groove of the common formation of described two T-shaped boss.

7. LED light fixture as claimed in claim 1, is characterized in that, described radiator adopts aluminium alloy to make, and described radiator is formed by a strip structure cutting, and described strip structure adopts the aluminium extruded technological forming.

8. LED light fixture as claimed in claim 7, is characterized in that, the outer surface of described radiator is through forming one deck reflective film after anodized.

9. LED light fixture as claimed in claim 1, is characterized in that, described gripper shoe, fin, the first radiating fin are the axially extended rectangular structure along described cylindrical shell, and extend to the other end from an end of described cylindrical shell.

10. LED light fixture as claimed in claim 9, is characterized in that, described support component is eight, form three described the first radiating fins between every two described support components, and the spacing of the outer surface of every two relative support components is 80 millimeters.

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